Techno-economic evaluation of integrated levulinic acid, formic acid, and furfural plant from oil palm empty fruit bunch with pre-treatment variations

E-Journal Menara Perkebunan Pub Date : 2022-04-28 DOI:10.22302/iribb.jur.mp.v90i1.485

M. Gozan, Denia Apriliani Rahman, A. F. M. Harahap

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Abstract

AbstractLevulinic acid, a platform biochemical, might be utilized as a biodiesel additive in biodiesel production. Global demand for levulinic acids was 3,820 tons in 2020, while the roadmap target of biodiesel in Indonesia will reach 20% of diesel consumption in 2016-2025. These figures become the considerations for establishing the levulinic acid plant in Indonesia. The study's focus analyzed the economic viability of integrated levulinic acid production plant design based on Oil Palm Empty Fruit Bunches (OPEFB) in Indonesia. OPEFB was selected as raw material due to the enormous solid waste generated by oil palm plantations. In the plant design, software SuperPro Designer 9.0's used as a process tool simulator. The economic analysis showed the Net Present Value (NPV) as the US $ 548,850,764, an Internal Rate of Return (IRR) of 24.75%, and a payback period (PBP) estimated within six years with a Minimum Attractive Rate Return (MARR) of 6.1%. The optimal production capacities of levulinic acid, furfural, and formic acid are 12,425; 15,105 and 6,074 tonnes/year.[Keywords: cellulose, delignification, levulinic acid, OPEFB, simulation] AbstrakAsam levulinat, sebuah platform biokimia, dapat digunakan sebagai aditif biodiesel dalam produksi biodiesel. Permintaan global asam levulinat mencapai 3.820 ton pada 2020, sedangkan roadmap target biodiesel di Indonesia mencapai 20% dari konsumsi solar pada 2016-2025. Angka-angka ini menjadi pertimbangan untuk mendirikan pabrik asam levulinat di Indonesia. Fokus penelitian menganalisis kelayakan ekonomi rancangan pabrik produksi asam levulinat terpadu berbasis Tandan Kosong Kelapa Sawit (TKKS) di Indonesia. TKKS dipilih sebagai bahan baku karena limbah padat yang dihasilkan perkebunan kelapa sawit sangat besar. Dalam perancangan pabrik, software SuperPro Designer 9.0 digunakan sebagai alat simulator proses. Analisis ekonomi menunjukkan Net Present Value (NPV) sebesar US$ 548.850.764, Internal Rate of Return (IRR) 24,75%, dan payback period (PBP) diperkirakan dalam enam tahun dengan Minimum Attractive Rate Return (MARR) 6,1%. Kapasitas produksi optimal asam levulinat, furfural dan asam format masing-masing adalah 12.425; 15.105 dan 6.074 ton/tahun.[Kata kunci: selulosa, delignifikasi, asam levulinat, TKKS, simulasi]

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油棕空果串综合乙酰丙酸、甲酸、糠醛植株预处理变化的技术经济评价

摘要乙酰丙酸是一种平台生化物质，可作为生物柴油添加剂用于生物柴油生产。2020年全球乙酰丙酸需求量为3820吨，而印尼生物柴油的路线图目标是在2016-2025年达到柴油消费量的20%。这些数字成为在印尼建立乙酰丙酸厂的考虑因素。本研究重点分析了印尼油棕空果串(OPEFB)综合乙酰丙酸生产工厂设计的经济可行性。选择OPEFB作为原料是因为油棕种植园产生了大量的固体废物。在工厂设计中，使用了SuperPro Designer 9.0软件作为过程工具模拟器。经济分析显示，净现值(NPV)为548,850,764美元，内部收益率(IRR)为24.75%，投资回收期(PBP)估计为6年，最低吸引力收益率(MARR)为6.1%。乙酰丙酸、糠醛和甲酸的最佳生产能力为12425;15,105和6,074吨/年。【关键词:纤维素，去木质素作用，乙酰丙酸，OPEFB，模拟】【摘要】乙酰丙酸，油脂平台生物群落，dapat digunakan sebagai adif生物柴油;Permintaan global asam levulininapai 3.820吨/ 2020,sedangkan roadmap目标生物柴油di Indonesia menapai 20% / 2016-2025。Angka-angka ini menjadi pertimbangan untuk mendirikan pabrik asam levulinat di Indonesia。重点是在印尼，在印尼，在印尼，在印尼，在印尼，在印尼，在泰国，在印尼。kks dipilih sebagai bahan baku karena limbah padat yang dihasilkan perkebunan kelapa sawit sangat besar。Dalam perancangan pabrik，软件SuperPro Designer 9.0 digunakan sebagai模拟程序。分析经济menunjukkan净现值(NPV)为548.850.764美元，内部收益率(IRR)为24.75%，投资回收期(PBP)为最低吸引力收益率(MARR)为6.1%。Kapasitas产品最优asam去乙酰化，糠醛和asam格式的asam - masalah 12.425;15.105丹6.074吨/塔浑。[Kata kunci: selulosa, delignifikasi, asam levulinat, TKKS, simulasi]

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